Electronic, Computer Engineering and Sport Engineering

Study mode:On campus Study type:Full-time Languages: English
 
201–250 place StudyQA ranking:8577 Duration:2 years

Electronic Engineering and Computer Engineering are dynamic and interdisciplinary fields that drive innovation and technological advancement in today's digital world. At Griffith University, our Electronic and Computer Engineering programs are designed to equip students with comprehensive knowledge and practical skills in the design, development, and application of electronic systems, embedded systems, communication networks, and computing technologies. Our curriculum combines foundational principles with cutting-edge research and industry practices, preparing graduates to meet the evolving demands of the electronics and information technology sectors.

Students will explore core topics such as circuit analysis and design, digital signal processing, microprocessor systems, and computer architecture. Additionally, the program emphasizes the development of programming skills, software engineering, and the integration of hardware and software systems. Through diverse laboratory work, industry projects, and internships, students gain hands-on experience that enhances their problem-solving abilities and technical competence. The program also covers emerging fields like Internet of Things (IoT), robotics, cybersecurity, and artificial intelligence, ensuring students stay at the forefront of technological innovation.

Our Electronic and Computer Engineering degrees are designed to foster analytical thinking, creativity, and teamwork, enabling graduates to excel in multidisciplinary environments. Graduates can pursue careers in various industries, including telecommunications, automation, multimedia, aerospace, and defense. The program aligns with industry standards and prepares students for professional accreditation, enhancing their employability and career prospects.

Furthermore, Griffith University's supportive learning environment, state-of-the-art laboratories, and close ties with industry partners provide students with valuable networking opportunities and practical insights. Whether you're interested in developing cutting-edge electronic devices, designing embedded systems, or advancing computer technologies, our Electronic and Computer Engineering programs offer the ideal pathway to achieve your aspirations and contribute to technological progress globally.

Griffith University grants credit and recognition of prior learning which may relate with prior formal instruction or earlier casual and non-formal learning. To learn more, please visit the following internet site:https://www.griffith.edu.au/apply/credit-transfer Credit transferGriffith's innovative Credit Precedent Database allows you to learn which credit conclusions are made previously. All these precedents will provide you with a sense of what it is possible to expect.https://app.griffith.edu.au/credit-precedent/credit_result.php? Ngpc=5644&SortField=Connected%20Institution%20Name&noresultserror=error.html&search View charge precedents with this program

Program requirements for the Bachelor of Engineering (Honours) in Electronic and Computer Engineering at Griffith University include a combination of core courses, electives, and practical components designed to develop both theoretical knowledge and practical skills. Prospective students must have completed Year 12 or equivalent with a strong background in mathematics, physics, and computer science. International students need to satisfy English language proficiency requirements, typically demonstrated through IELTS, TOEFL, or PTE scores.

Applicants are expected to meet the minimum academic standards, which generally include achieving a specified score on their previous education qualifications, such as a high ATAR or equivalent for Australian students. For diploma pathway students, completion of the required coursework with satisfactory grades may be necessary for entry into advanced years of the program.

The program emphasizes a strong foundation in electrical circuits, digital systems, microprocessors, and embedded systems. Students are required to undertake core courses such as Fundamentals of Electrical Engineering, Digital and Embedded Systems, and Microprocessors and their Applications. Additionally, the program includes courses in programming languages like C, C++, and MATLAB to ensure students are proficient in coding and simulation tools.

Practical experience is integral to the program, with students participating in laboratory work, industry projects, and internships where possible. This hands-on approach helps students to develop problem-solving skills and apply theoretical knowledge in real-world scenarios. Students must also complete a capstone project in their final year, demonstrating their ability to integrate and apply their learning to a complex engineering problem.

Elective courses allow students to specialise further in areas such as telecommunications, robotics, signal processing, or computer hardware. The program requires full-time study for a typical duration of four years. To graduate, students must accumulate the requisite credits, pass all compulsory courses, and satisfy the university's academic integrity and conduct standards.

In summary, entry requirements depend on the candidate's academic background and English language proficiency. The curriculum is designed to ensure graduates are equipped with competencies in electronics, computer hardware and software, and a strong grounding in engineering principles, preparing them for careers in diverse sectors such as telecommunications, automation, and consumer electronics.


Want to improve your English level for admission?

Prepare for the program requirements with English Online by the British Council.

  • ✔️ Flexible study schedule
  • ✔️ Experienced teachers
  • ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

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The financing of the Electronic, Computer Engineering and Sport Engineering programs at Griffith University can be approached through various funding options available to both domestic and international students. Domestic students may access government-funded support such as HECS-HELP assistance, which helps cover tuition fees through income-contingent loans. This reduces the immediate financial burden as students only repay once their income exceeds a certain threshold. Scholarships are also available for eligible students, including academic excellence scholarships, equity scholarships, and specific awards for students in engineering disciplines. These scholarships can significantly offset tuition costs and sometimes provide additional financial support for living expenses or study materials.

International students are required to pay tuition fees upfront or through payment plans arranged via the university. Griffith University offers flexible payment options to ease financial planning, including semester-based installments. Although international students do not qualify for Australian government assistance programs like HECS-HELP, they may explore external scholarships provided by government agencies, private organizations, or the university itself. These scholarships are designed to support international students with merit awards or financial hardship.

For students requiring additional funding, private educational loans are an option, though these typically involve significant interest rates and repayment obligations. Griffith University also provides financial advisory services to help students develop suitable funding strategies, budget for their studies, and access emergency funds if necessary. Part-time work opportunities on or near campus are encouraged to help offset living expenses; however, international students should adhere to visa work restrictions.

Overall, the university emphasizes supporting students through a combination of government assistance, scholarships, payment plans, and work opportunities to make studying in Electronic, Computer Engineering and Sport Engineering more financially accessible. Students are encouraged to explore all available funding avenues early in their academic planning to ensure they can manage the costs associated with their degree programs effectively.

The Bachelor of Electronic, Computer and Sport Engineering at Griffith University is a comprehensive program designed to prepare students for innovative careers in emerging technology sectors. This degree combines core concepts from electronics, computer systems, and sport engineering, providing a multidisciplinary education that is highly relevant in today’s technology-driven world. Students will gain foundational knowledge in electronic circuits, digital systems, programming, and embedded systems, coupled with specialized modules in sports technology such as biomechanics, sport performance analysis, and wearable sensor systems.

Throughout the course, students will develop practical skills through laboratory work, industry projects, and work-integrated learning opportunities, which strengthen their ability to solve complex engineering problems. The program emphasizes innovation, critical thinking, and technical competency, equipping graduates with the skills necessary for roles in sports technology development, embedded system design, athlete performance monitoring, and electronic product development.

The curriculum is continually updated to reflect current industry standards and advances in technology, ensuring graduates are workforce-ready. Opportunities for international study, internships, and research projects are integrated within the program, enhancing the student learning experience and employability. The program also provides pathways to further specialization through postgraduate study or research opportunities in engineering fields.

Potential career pathways after completing this degree include roles such as sports technology engineer, embedded systems engineer, electronics design engineer, sports performance analyst, and research scientist in sports technology innovation. The program is designed to foster not only technical expertise but also teamwork, communication, and ethical practices, preparing students to contribute effectively to global engineering challenges in electronics, computer science, and sports industries.

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